Cement composites like mortar and concrete are the most widely used construction material
in the world. Around 90% of the total carbon footprints of concrete manufacturing comes from …

To reduce greenhouse emissions, the utilization of biomass is a proficient path for producing
power and its impact on accumulative carbon footprint. Generation of power using biomass …

Many properties of concrete with tailings have been examined in the literature, but it is seen
that there are not many studies on the environmental properties of these concretes. It is …

In this study, metakaolin-based geopolymer samples produced by substitution of silica fume
and colemanite waste up to 20% were subjected to high-temperature effects at 300, 600 …

The possibility of substituting natural fine aggregate with industrial by-products such as
waste foundry sand and bottom ash offers technical, economic and environmental …

Coal bottom ash (CBA) is a by-product of coal industry and is produced in large extent from
coal fired thermal power plants. Utilization of CBA in the manufacturing of concrete proposes …

This paper aims to examine high-temperature behavior and some mechanical and
microstructural characteristics of boron waste additive metakaolin based geopolymer mortar …

In this research, the effects of zeolite, coal bottom ash and fly ash as Portland cement
replacement materials on the properties of cement are investigated through three different …

Concerning sustainability and recycling considerations, geopolymers have recently raised
as one of the most active alternatives to the current cement-based composites, in addition to …

ASTM C 618 prohibits use of biomass fly ashes in concrete. This document compares the
properties of biomass fly ashes from cofired (herbaceous with coal), pure wood combustion …